CN103196047B

CN103196047B - Has the electric energy illuminator of axially and radially stomata radiator

Info

Publication number: CN103196047B
Application number: CN201310004909.XA
Authority: CN
Inventors: 杨泰和
Original assignee: Individual
Current assignee: Individual
Priority date: 2012-01-09
Filing date: 2013-01-07
Publication date: 2017-07-07
Anticipated expiration: 2033-01-07
Also published as: US9500356B2; AU2016204938B2; CN203082618U; AU2016204938A1; BR122020023285B1; CN103196047A; KR20130081669A; BR102013000518B1; SG192345A1; ES2749114T3; JP6266884B2; EP2623859B1; CA2800579C; BR102013000518A2; EP2837882A3; TWI611142B; KR102096110B1; MX2013000328A; US20130175915A1; EP2837882B1

Abstract

The present invention relates to a kind of electric energy illuminator for having axially and radially stomata radiator, the electric energy illuminator for having axially and radially stomata radiator is so that the heat energy from electric lighting device, in addition to by radiator surface externally radiating, further the heat by having the internal thermal current of axially and radially stomata radiator (101) rises cold drop effect, simultaneously by the air inlet suction airflow of nearly light projector side, and closely it is coupled the external radiating that the rod radial air vent (107) of side (104) is discharged and forms air flow to assist to have the internal thermal current of axially and radially stomata radiator (101) by having axially and radially stomata radiator (101) through axial tubular flow road (102), to increase the external radiating effect inside radiator.

Description

Has the electric energy illuminator of axially and radially stomata radiator

Technical field

The present invention relates to a kind of electric lighting device, more particularly to a kind of electric energy for having axially and radially stomata radiator lights Body.

Background technology

Tradition is applied to the heat abstractor of the electric energy illuminator of electric lighting device, such as light emitting diode LED lighting device Radiator, generally the heat energy produced by LED is transmitted to radiator and is externally radiated by the surface of radiator again, there is no at present same When by the air-flow from air admission hole, the internal heat dissipating face formed by axial hole, then discharged through rod radial air vent is scattered to increase The external radiating effect in hot portion in vivo.

The content of the invention

In view of this, it is an object of the invention to provide a kind of electric energy illuminator for having axially and radially stomata radiator.

To reach above-mentioned purpose, the present invention provides a kind of electric energy illuminator for having axially and radially stomata radiator, described The electric energy illuminator of tool axially and radially stomata radiator so that the heat energy from electric lighting device, except external by radiator surface Radiating is outer, and further the heat by having the axially and radially inside thermal current of stomata radiator 101 rises cold drop effect, while by closely throwing The air inlet suction airflow of light side, and closely it is coupled side by having axially and radially stomata radiator 101 through axial tubular flow road 102 104 rod radial air vent 107 is discharged and forms air flow to assist the tool axially and radially inside thermal current of stomata radiator 101 External radiating, it is mainly consisted of：

-- have axially and radially stomata radiator 101：It is the integral type as made by the good material of thermal conductivity or combination Formula ducted body, its radial direction appearance is in even surface or finned surface or grid surface or cellular or netted or wings, for structure Into outer radiating surface 105, its inner radial be in even surface or finned surface or grid surface or cellular or netted or wings, Radiating surface 106 in for constituting, and the middle axial tubular stream 102 with for airflow constitutes axial hole, and to have axially And one end of the axial direction of radial direction stomata radiator 101, used as light projector side 103, for setting electric energy illuminator, the axial other end is in closing Or semiclosed or Open architecture is provided as being coupled side 104, with as the external structure being coupled；

-- tool is axially and radially provided with more than one rod radial air vent in the nearly side for being coupled side 104 of stomata radiator 101 107, and more than one air admission hole is provided with light projector side 103, it is included in arrangement above air inlet at following three at least Mouthful, this be at three in periphery be provided with radial air inlet hole 108 and/or in light projector side 103 axial end middle setting center axially Air admission hole 109 and/or the nearly surrounding ring of axial end is set in light projector side 103 air admission hole 110 is set；

By said structure, when electric energy illuminator electrified light emitting produces heat waste, by tool, axially and radially stomata radiates Thermal current inside body 101 produces heat to rise cold drop effect, by the air inlet suction airflow of nearly light projector side, and through axial tubular flow road 102 axial holes for constituting, then be closely coupled by having axially and radially stomata radiator 101 side 104 rod radial air vent 107 discharge and Air flow is constituted, by the heat energy discharge inside axial tubular stream 102.

Preferably, wherein the electric energy illuminator for having axially and radially stomata radiator includes lighting electric energy Body is arranged at the light projector side end face mesozone for having axially and radially stomata radiator 101, and sets footpath in the periphery of nearly light projector side To air admission hole 108, it is mainly consisted of：

-- have axially and radially stomata radiator 101：It is the integral type as made by the good material of thermal conductivity or combination Formula ducted body, its radial direction appearance is in even surface or finned surface or grid surface or cellular or netted or wings, for structure Into outer radiating surface 105, its inner radial be in even surface or finned surface or grid surface or cellular or netted or wings, Radiating surface 106 in for constituting, and it is middle there is the axial tubular stream 102 for airflow to constitute axial hole, and have axially and One end of the axial direction of radial direction stomata radiator 101 as light projector side 103, for setting electric energy illuminator, the axial other end in closing or Semiclosed or Open architecture is provided as being coupled side 104, with as the external structure being coupled；

-- tool is axially and radially provided with more than one rod radial air vent in the nearly side for being coupled side 104 of stomata radiator 101 107, rod radial air vent 107 includes being in grid hole that is poroid or being made up of network structure；

-- radial air inlet hole 108：It is the periphery of nearly light projector side 103 for having axially and radially stomata radiator 101 for being arranged at More than one radial air inlet hole 108, radial air inlet hole 108 include be in grid hole that is poroid or being made up of network structure；

By said structure when electric energy illuminator electrified light emitting produces heat waste, by having axially and radially stomata radiator Thermal current inside 101 produces heat to rise cold drop effect, by the more than one suction airflow of radial air inlet hole 108 of light projector side 103, And the axial hole constituted through axial tubular flow road 102, then the footpath for being closely coupled side 104 by having axially and radially stomata radiator 101 Discharged to steam vent 107 and constitute air flow, by the heat energy discharge inside axial tubular stream 102；

-- electric energy illuminator：The device of luminous energy is produced to be constituted by by more than one input electric energy, the device includes hair The module of optical diode 111 or light emitting diode, for being arranged at the tool axially and radially light projector side 103 of stomata radiator 101 Centre, and according to the external light projector of direction initialization；

-- secondary optics device 112：Be according to need selectivity set, for by the luminous energy optically focused of light emitting diode 111, expand The function of dissipating, reflect and reflect is with external light projector；

-- printing opacity lamp housing 113：It is as made by light transmissive material, for covering in light emitting diode 111 with to light emitting diode 111 are protected, and the luminous energy of light emitting diode 111 can be supplied to penetrate externally projection；

-- axial restraint and thermal interface 114：Its one end is to be incorporated into the connection for having axially and radially stomata radiator 101 Side 104, the other end is in screw-in, plug-in type or locking type lamp holder or holder structure, or to be made up of conductive terminal structure Conductive interface structure, is provided as the link interface of electric energy illuminator and axially outer electric energy, and be connected to electric energy hair with electric conductor Body of light is transmitting electric energy.

Preferably, wherein the electric energy illuminator for having axially and radially stomata radiator includes lighting electric energy Body is arranged at the tool axially and radially light projector side end face mesozone of stomata radiator 101, and it is closely all to set axial end in light projector side Collarette sets air admission hole 110, and it is mainly consisted of：

-- the nearly surrounding ring of axial end sets air admission hole 110：It is the throwing for having axially and radially stomata radiator 101 for being located on More than one air inlet structure around the axial end of light side 103 is near, for towards axial tubular stream 102, axial end is closely all Collarette sets air admission hole 110 to be included in grid hole that is poroid or being made up of network structure；

By said structure when electric energy illuminator electrified light emitting produces heat waste, by having axially and radially stomata radiator Thermal current inside 101 produces heat to rise cold drop effect, by light projector side 103 set the nearly surrounding ring of more than one axial end set into The suction airflow of stomata 110, and the axial hole constituted through axial tubular flow road 102, then by having axially and radially stomata radiator 101 The nearly rod radial air vent 107 for being coupled side 104 is discharged and constitutes air flow, by the heat energy row inside axial tubular stream 102 Go out；

Preferably, wherein the electric energy illuminator for having axially and radially stomata radiator includes lighting electric energy Body is arranged at the tool axially and radially light projector side of stomata radiator 101 in downward light projector circular row, and sets central axial direction air admission hole 109, it is mainly consisted of：

-- center axial direction air admission hole 109：It is the light projector side 103 for having axially and radially stomata radiator 101 for being arranged at The middle axial direction air admission hole shape structure that axial end is set, for towards axial tubular stream 102, center axial direction air admission hole 109 is wrapped Include in grid hole that is poroid or being made up of network structure；

By said structure when electric energy illuminator electrified light emitting produces heat waste, by having axially and radially stomata radiator Thermal current inside 101 produces heat to rise cold drop effect, by the center axial direction suction airflow of air admission hole 109 of light projector side 103, and warp beam To the axial hole that tubulose stream 102 is constituted, then the radial direction exhaust for being closely coupled side 104 by having axially and radially stomata radiator 101 Hole 107 is discharged and constitutes air flow, by the heat energy discharge inside axial tubular stream 102；

-- electric energy illuminator：The device of luminous energy is produced to be constituted by by more than one input electric energy, the device includes hair The module of optical diode 111 or light emitting diode, for being arranged at the tool axially and radially light projector side 103 of stomata radiator 101 Inside enclose, and be in down-set, and according to the external light projector of direction initialization；

Preferably, wherein the electric energy illuminator for having axially and radially stomata radiator includes lighting electric energy Body is arranged at the tool axially and radially light projector side of stomata radiator 101 in the downward light projector circular row of multiple round, and in the week of light projector side Enclose or between the annular electric energy illuminator of the downward light projector of multiple round, set the nearly surrounding ring of axial end set air admission hole 110 and Center axial direction air admission hole 109 is set, and it is mainly consisted of：

-- the nearly surrounding ring of axial end sets air admission hole 110：It is the throwing for having axially and radially stomata radiator 101 for being located on Around the axial end of light side 103 is near, or more than one air inlet between the annular light emitting diode 111 of the downward light projector of multiple round Pore structure, for towards axial tubular stream 102, the nearly surrounding ring of axial end sets air admission hole 110 includes being in poroid or by netted knot The grid hole that structure is constituted；

By said structure when electric energy illuminator electrified light emitting produces heat waste, by having axially and radially stomata radiator Thermal current inside 101 produces heat to rise cold drop effect, and the center axial direction air admission hole 109 and axial end by light projector side 103 are closely all Collarette sets the suction airflow of air admission hole 110, and through the axial hole of axial tubular flow road 102 composition, then by having axially and radially stomata The rod radial air vent 107 that radiator 101 is closely coupled side 104 is discharged and constitutes air flow, inside axial tubular stream 102 Heat energy discharge；

-- electric energy illuminator：The device of luminous energy is produced to be constituted by by multiple input electric energy, the device includes light-emitting diodes The module of pipe 111 or light emitting diode, encloses for being arranged to have in the axially and radially light projector side 103 of stomata radiator 101, and It is down-set in multiple round, and according to the external light projector of direction initialization；

Preferably, wherein the electric energy illuminator for having axially and radially stomata radiator is further with radially Fixed and the substitution axial restraint of thermal interface 115 and thermal interface 114, and add top nappe 116；

Wherein：

-- radially fixed and thermal interface 115：Its one end is to be incorporated into the connection for having axially and radially stomata radiator 101 Side 104, the other end is in screw-in, plug-in type or locking type lamp holder or holder structure, or to be made up of conductive terminal structure Conductive interface structure, is provided as the link interface of electric energy illuminator and radially outer electric energy, and be connected to electric energy hair with electric conductor Body of light is transmitting electric energy；

-- top nappe 116：Constituted by by thermal conductivity or non heat conductivity material, for being incorporated into tool axially and radially gas The connection side 104 of hole radiator 101, with to the air-flow for having the axially and radially top interior space of stomata radiator 101, there is provided draw Air guide flows to the shape of radial diffusion, or provides the optically focused or the function of diffusion for making optical reflection or refraction, in using non-conductive When material is constituted, for isolating or reducing the heat energy transmission for having the axially and radially top interior space of stomata radiator 101 and outside, When being constituted using Heat Conduction Material, and further there is the assistance tool axially and radially inside higher temperatures air-flow of stomata radiator 101 Externally make the function of radiating.

Wherein：

Preferably, wherein the electric energy illuminator for having axially and radially stomata radiator is further in application When, in many places, air inlet is set, wherein：

-- tool is axially and radially provided with more than one rod radial air vent in the nearly side for being coupled side 104 of stomata radiator 101 107, and air admission hole is provided with light projector side 103, arrangement above air inlet at least at following three is included in, it is included in periphery and sets There is radial air inlet hole 108 and/or in the axial end middle setting center axial direction air admission hole 109 of light projector side 103 and/or in light projector Side 103 sets the nearly surrounding ring of axial end and sets air admission hole 110.

Preferably, wherein the electric energy illuminator for having axially and radially stomata radiator is further by tube axial The axial section of shape stream 102 it is internal or external both or at least within one be made tool heat-dissipating fin structure 200, to increase Its radiating effect；Its main composition is the tool for being constituted the good material of thermal conductivity axially and radially stomata radiator 101, its It is near to be coupled set by side 104 between the steam vent of radial direction and the air admission hole of nearly light projector side 103, by the structure of axial tubular stream 102 The tubulose road of Cheng Xiangliu, the structure section B-B of its tubulose stream is in tool heat-dissipating fin structure 200.

Preferably, wherein it is described tool axially and radially stomata radiator 101 net is further made with Heat Conduction Material Shape structure, and pass through the mesh of network structure to replace rod radial air vent 107 and radial air inlet hole 108, its light projector side 103 then has There is block conductive structure, for setting electric energy illuminator.

Preferably, wherein the electric energy illuminator for having axially and radially stomata radiator further will tool axial direction And the inside at the top of radial direction stomata radiator 101, the axial direction to light projector side 103 is met, it is made the structure with deflection cone 301；Or By axial restraint and conductive interface 114, the side for combining tool axially and radially stomata radiator 101, along meet to tool axially and The axial direction of the light projector side 103 of radial direction stomata radiator 101, is made the structure with deflection cone 302, above-mentioned deflection cone 301, deflection cone 302 to meet to the direction of the tool axially and radially light projector side 103 of stomata radiator 101 be in cone-shaped, to guide axial tubular flow The inside of road 102 heat rises air flow direction rod radial air vent 107.

Preferably, wherein the electric energy illuminator for having axially and radially stomata radiator is further in tube axial The inside of shape stream 102 sets the fan 400 of motor-driven, to assist the flowing of the inside thermal current of axial tubular flow road 102, and Increase radiating effect.

The electric energy illuminator for having axially and radially stomata radiator provided by the present invention, is will have axially and radially stomata The inside of radiator 101 is made axial tubular stream 102 to constitute axial hole, thus is arranged at tool axially and radially stomata radiating Heat energy produced by the electric energy illuminator of the light projector side 103 of body 101, in addition to by radiator surface externally radiating, further while logical Crossing the thermal current having inside axially and radially stomata radiator 101 produces heat to rise cold drop effect, by nearly light projector side through axial tubular The air inlet suction airflow of the axial hole that stream 102 is constituted, via tool, axially and radially stomata radiator 101 is closely coupled side 104 Rod radial air vent 107 discharge, assist the right of the tool axially and radially inside thermal current of stomata radiator 101 to form air flow Outer radiating.

Brief description of the drawings

Fig. 1 show basic structure of the invention and running schematic diagram；

Fig. 2 show the A-A view profiles of Fig. 1；

Fig. 3 show electric energy illuminator of the present invention and is arranged at tool axially and radially in the light projector side end face of stomata radiator 101 Between area, and the embodiment schematic diagram of the structure of radial air inlet hole 108 is set in the periphery of nearly light projector side；

Fig. 4 show the top view of Fig. 3；

Fig. 5 show electric energy illuminator of the present invention and is arranged at tool axially and radially in the light projector side end face of stomata radiator 101 Between area, and the nearly surrounding ring of axial end be set in light projector side set the embodiment schematic diagram of the structure of air admission hole 110；

Fig. 6 show the top view of Fig. 5；

Fig. 7 show electric energy illuminator of the present invention and is arranged at tool axially and radially stomata radiator in downward light projector circular row 101 light projector sides, and the embodiment schematic diagram of the central axial direction structure of air admission hole 109 is set；

Fig. 8 show the top view of Fig. 7；

Fig. 9 show electric energy illuminator of the present invention and is arranged at tool axially and radially stomata in the downward light projector circular row of multiple round The light projector side of radiator 101, and around light projector side or between the annular electric energy illuminator of the downward light projector of multiple round, set The nearly surrounding ring of axial end sets air admission hole 110 and sets the embodiment schematic diagram of the center axial direction structure of air admission hole 109；

Figure 10 show the upward view of Fig. 9；

Figure 11 for embodiment illustrated in fig. 3 be applied to tool axially and radially the top of stomata radiator 101 set it is radially fixed and The embodiment schematic diagram of thermal interface 115 and the setting top structure of nappe 116；

Figure 12 show the upward view of Figure 11；

Figure 13 for embodiment illustrated in fig. 5 be applied to tool axially and radially the top of stomata radiator 101 set it is radially fixed and The embodiment schematic diagram of thermal interface 115 and the setting top structure of nappe 116；

Figure 14 show the upward view of Figure 13；

Figure 15 for embodiment illustrated in fig. 7 be applied to tool axially and radially the top of stomata radiator 101 set it is radially fixed and The embodiment schematic diagram of thermal interface 115 and the setting top structure of nappe 116；

Figure 16 show the upward view of Figure 15；

Figure 17 for embodiment illustrated in fig. 9 be applied to tool axially and radially the top of stomata radiator 101 set it is radially fixed and The embodiment schematic diagram of thermal interface 115 and the setting top structure of nappe 116；

Figure 18 show the upward view of Figure 17；

Figure 19 show the embodiment schematic diagram in the axial A-A sections ovalize hole of the axial tubular stream 102 of Fig. 1；

Figure 20 show the embodiment schematic diagram in the axial A-A sections hole triangular in shape of the axial tubular stream 102 of Fig. 1；

The axial A-A sections that Figure 21 show the axial tubular stream 102 of Fig. 1 are in the embodiment schematic diagram in tetragonal hole；

Figure 22 show the axial A-A sections of the axial tubular stream 102 of Fig. 1 in the embodiment schematic diagram in pentagon hole；

Figure 23 show the axial A-A sections of the axial tubular stream 102 of Fig. 1 in the embodiment schematic diagram of hex hole；

The axial A-A sections that Figure 24 show the axial tubular stream 102 of Fig. 1 take the shape of the letter U the embodiment schematic diagram in hole；

Figure 25 show the axial A-A sections of the axial tubular stream 102 of Fig. 1 in the embodiment of dual-end list slotted hole Schematic diagram；

Figure 26 show the axial A-A sections of the axial tubular stream 102 of Fig. 1 in the implementation of the multiple rows of slotted hole of dual-end Illustrate and be intended to；

Figure 27 show the axial B-B sections of the axial tubular stream 102 of Fig. 1 in the embodiment of heat-dissipating fin structure 200 Schematic diagram；

Figure 28 show the present invention and has the embodiment schematic diagram that axially and radially stomata radiator 101 is in vesicular texture；

Figure 29 show the present invention and has the embodiment schematic diagram that axially and radially stomata radiator 101 is in network structure；

Figure 30 show the inside that the present invention has the axially and radially top of stomata radiator 101, meets the axle to light projector side 103 To being made the embodiment schematic diagram with the structure of deflection cone 301；

Figure 31 show axial restraint of the present invention and conductive interface 114, for combining tool axially and radially stomata radiator 101 Side, along the axial direction met to the tool axially and radially light projector side 103 of stomata radiator 101, be made with the structure of deflection cone 302 Embodiment schematic diagram；

Figure 32 show in the present invention embodiment schematic diagram for setting motor driven fan 400.

Reference：

101：Has axially and radially stomata radiator；

102：Axial tubular stream；

103：Light projector side；

104：It is coupled side；

105：Outer radiating surface；

106：Interior radiating surface；

107：Rod radial air vent；

108：Radial air inlet hole；

109：Central axial direction air admission hole；

110：The nearly surrounding ring of axial end sets air admission hole；

111：Light emitting diode；

112：Secondary optics device；

113：Printing opacity lamp housing；

114：Axial restraint and thermal interface；

115：Radially fixed and thermal interface；

116：Top nappe；

200：Heat-dissipating fin structure；

301、302：Deflection cone；

400：Motor driven fan.

Specific embodiment

Below in conjunction with the accompanying drawings and embodiments of the invention are described in further detail to the method for the present invention.

Tradition is applied to the heat abstractor of the electric energy illuminator of electric lighting device, such as light emitting diode (LED) illumination dress The radiator put, the heat energy produced by LED is generally transmitted to radiator externally radiated by the surface of radiator again, be there is no at present The internal heat dissipating face for being formed by axial hole by the air-flow from air admission hole simultaneously, then discharged through rod radial air vent scattered to increase The external radiating effect in hot portion in vivo, the present invention is that the inside for having axially and radially stomata radiator 101 is made into axial tubular Stream 102 is arranged at the electric energy illuminator for having the axially and radially light projector side 103 of stomata radiator 101 to constitute axial hole Produced heat energy, in addition to by radiator surface externally radiating, further passes through tool axially and radially stomata radiator 101 simultaneously Internal thermal current produces heat to rise cold drop effect, the air inlet of the axial hole being made up of through axial tubular flow road 102 nearly light projector side Suction airflow, via tool, axially and radially the nearly rod radial air vent 107 for being coupled side 104 of stomata radiator 101 is discharged, to form stream Stream of taking offence assists the external radiating inside radiator.

The present invention is for electric lighting device, for example, to be needed using light emitting diode (LED) as the radiating of electric energy illuminator Ask, there is provided a kind of electric energy illuminator for having axially and radially stomata radiator, so that the heat energy from electric lighting device, except by dissipating Outside outer radiating, further the heat by having the axially and radially inside thermal current of stomata radiator 101 rises cold drop effect to hot body surface Should, while by the air inlet suction airflow of nearly light projector side, and through axial tubular flow road 102 by having axially and radially stomata radiator The 101 nearly rod radial air vents 107 for being coupled side 104 are discharged and form air flow to assist tool axially and radially stomata radiator The external radiating of 101 inside thermal currents.

Fig. 1 show basic structure of the invention and running schematic diagram；

Fig. 2 show the A-A view profiles of Fig. 1；

As shown in Figures 1 and 2, it is mainly consisted of：

-- tool is axially and radially provided with more than one rod radial air vent in the nearly side for being coupled side 104 of stomata radiator 101 107, and more than one air admission hole is provided with light projector side 103, it is included on one at following three at least one and air inlet is set, This is to be provided with radial air inlet hole 108 and/or the axial end middle setting center axial admission in light projector side 103 in periphery at three Hole 109 and/or in light projector side 103 set the nearly surrounding ring of axial end set air admission hole 110；

By said structure when electric energy illuminator electrified light emitting produces heat waste, by having axially and radially stomata radiator Thermal current inside 101 produces heat to rise cold drop effect, by the air inlet suction airflow of nearly light projector side, and through axial tubular flow road 102 axial holes for constituting, then be closely coupled by having axially and radially stomata radiator 101 side 104 rod radial air vent 107 discharge and Air flow is constituted, by the heat energy discharge inside axial tubular stream 102.

Fig. 4 show the top view of Fig. 3；

As shown in Fig. 3 and Fig. 4, it is mainly consisted of：

-- electric energy illuminator：The device of luminous energy is produced to be constituted by by more than one input electric energy, such as by luminous two The module of pole pipe 111 or light emitting diode is constituted, the light projector side 103 for having axially and radially stomata radiator 101 for being arranged at Centre, and according to the external light projector of direction initialization；

Fig. 6 show the top view of Fig. 5；

As shown in figs. 5 and 6, it is mainly consisted of：

Fig. 7 show electric energy illuminator of the present invention and is arranged at tool axially and radially stomata radiator in downward light projector circular row 101 light projector sides, and the embodiment schematic diagram of the central axial direction structure of air admission hole 109 is set.

Fig. 8 show the top view of Fig. 7；

As shown in Fig. 7 and Fig. 8, it is mainly consisted of：

-- electric energy illuminator：The device of luminous energy is produced to be constituted by by more than one input electric energy, such as by luminous two The module of pole pipe 111 or light emitting diode is constituted, the light projector side 103 for having axially and radially stomata radiator 101 for being arranged at In enclose, and be in down-set, and according to the external light projector of direction initialization；

Figure 10 show the upward view of Fig. 9；

As shown in Fig. 9 and Figure 10, it is mainly consisted of：

-- electric energy illuminator：The device of luminous energy is produced to be constituted by by multiple input electric energy, such as by light emitting diode 111 Or the module of light emitting diode is constituted, enclosed for being arranged to have in the axially and radially light projector side 103 of stomata radiator 101, And it is in down-set multiple round, and according to the external light projector of direction initialization；

Figure 12 show the upward view of Figure 11；

As shown in figures 11 and 12, predominantly with the radially fixed and substitution axial restraint of conductive interface 115 and conductive boundary Face 114, and top nappe 116 is added, remaining structural member is identical with Fig. 3；

Wherein：

Figure 14 show the upward view of Figure 13；

As shown in Figure 13 and Figure 14, predominantly with the radially fixed and substitution axial restraint of conductive interface 115 and conductive boundary Face 114, and top nappe 116 is added, remaining structural member is identical with Fig. 5；

Wherein：

Figure 16 show the upward view of Figure 15；

As shown in Figure 15 and Figure 16, predominantly with the radially fixed and substitution axial restraint of conductive interface 115 and conductive boundary Face 114, and top nappe 116 is added, remaining structural member is identical with Fig. 7；

Wherein：

Figure 18 show the upward view of Figure 17；

As shown in Figure 17 and Figure 18, predominantly with the radially fixed and substitution axial restraint of conductive interface 115 and conductive boundary Face 114, and top nappe 116 is added, remaining structural member is identical with Fig. 9；

Wherein：

This has the electric energy illuminator of axially and radially stomata radiator, further when applying can also be set in many places Air inlet, wherein：

-- tool is axially and radially provided with more than one rod radial air vent in the nearly side for being coupled side 104 of stomata radiator 101 107, and air admission hole is provided with light projector side 103, arrangement above air inlet at least at following three is included in, it is included in periphery and sets There is radial air inlet hole 108 and/or in the axial end middle setting center axial direction air admission hole 109 of light projector side 103 and/or in light projector Side 103 sets the nearly surrounding ring of axial end and sets air admission hole 110；

This has the electric energy illuminator of axially and radially stomata radiator, and the stream tubulose of its axial tubular stream 102 is removed Can also be further included outside circular by oval tubular stream, triangle tubulose stream, tetragonal tubulose stream, pentagon tubulose Stream, hexagon tubulose stream or more than hexagonal polygonal tubulose stream, U-tube shape stream, dual-end single flute profile Hole tubulose stream, multiple rows of slotted hole tubulose stream of dual-end are constituted；The section of more polygonal or similar geometric can Analogize and too numerous to enumerate, hereby following examples are described as follows：

As shown in Figure 19, its main composition is that axially and radially stomata dissipates for the tool that is constituted the good material of thermal conductivity Hot body 101, it is closely coupled between the air admission hole of the steam vent of radial direction set by side 104 and nearly light projector side 103, by axial tubular Stream 102 constitutes the tubulose road mutually flowed, and the structure section A-A of its tubulose stream is ovalize.

As shown in Figure 20, its main composition is that axially and radially stomata dissipates for the tool that is constituted the good material of thermal conductivity Hot body 101, it is closely coupled between the air admission hole of the steam vent of radial direction set by side 104 and nearly light projector side 103, by axial tubular Stream 102 constitutes the tubulose road mutually flowed, and the structure section A-A of its tubulose stream is triangular in shape or subtriangular.

As shown in Figure 21, its main composition is that axially and radially stomata dissipates for the tool that is constituted the good material of thermal conductivity Hot body 101, it is closely coupled between the air admission hole of the steam vent of radial direction set by side 104 and nearly light projector side 103, by axial tubular Stream 102 constitutes the tubulose road mutually flowed, and the structure section A-A of its tubulose stream is in tetragonal or approximate quadrangle.

As shown in Figure 22, its main composition is that axially and radially stomata dissipates for the tool that is constituted the good material of thermal conductivity Hot body 101, it is closely coupled between the air admission hole of the steam vent of radial direction set by side 104 and nearly light projector side 103, by axial tubular Stream 102 constitutes the tubulose road mutually flowed, and the structure section A-A of its tubulose stream is in pentagon or approximate pentagon.

As shown in Figure 23, its main composition is that axially and radially stomata dissipates for the tool that is constituted the good material of thermal conductivity Hot body 101, it is closely coupled between the air admission hole of the steam vent of radial direction set by side 104 and nearly light projector side 103, by axial tubular Stream 102 constitutes the tubulose road mutually flowed, and the structure section A-A of its tubulose stream is in hexagon or approximate hexagon.

As shown in Figure 24, its main composition is that axially and radially stomata dissipates for the tool that is constituted the good material of thermal conductivity Hot body 101, it is closely coupled between the air admission hole of the steam vent of radial direction set by side 104 and nearly light projector side 103, by axial tubular Stream 102 constitutes the tubulose road mutually flowed, and the structure section A-A of its tubulose stream is the U-shaped in unilateral closing.

As shown in Figure 25, its main composition is that axially and radially stomata dissipates for the tool that is constituted the good material of thermal conductivity Hot body 101, it is closely coupled between the air admission hole of the steam vent of radial direction set by side 104 and nearly light projector side 103, by axial tubular Stream 102 constitutes the tubulose road mutually flowed, and the structure section A-A of its tubulose stream is in single slotted hole of dual-end.

As shown in Figure 26, its main composition is that axially and radially stomata dissipates for the tool that is constituted the good material of thermal conductivity Hot body 101, it is closely coupled between the air admission hole of the steam vent of radial direction set by side 104 and nearly light projector side 103, by axial tubular Stream 102 constitutes the tubulose road mutually flowed, and the structure section A-A of its tubulose stream is in more than two slotted holes of dual-end Constituted.

This has the electric energy illuminator of axially and radially stomata radiator, further can be by the axle of axial tubular stream 102 Tool heat-dissipating fin structure 200 is made to both or at least one inside or outside section, to increase its radiating effect；

As shown in Figure 27, its main composition is that axially and radially stomata dissipates for the tool that is constituted the good material of thermal conductivity Hot body 101, it is closely coupled between the air admission hole of the steam vent of radial direction set by side 104 and nearly light projector side 103, by axial tubular Stream 102 constitutes the tubulose road mutually flowed, and the structure section B-B of its tubulose stream is in tool heat-dissipating fin structure 200.

This has the electric energy illuminator of axially and radially stomata radiator, and axially and radially stomata radiator 101 enters its tool One step can be made cellular or network structure with Heat Conduction Material, and pass through the mesh of cavernous hole and network structure to replace footpath To steam vent 107 and radial air inlet hole 108, its light projector side 103 then has block conductive structure, for setting electric energy illuminator；

As shown in Figure 28, this has the electric energy illuminator of axially and radially stomata radiator, and it has axially and radially gas Hole radiator 101 further can be made vesicular texture with Heat Conduction Material, and pass through cavernous hole to replace rod radial air vent 107 and radial air inlet hole 108, its light projector side 103 then has block conductive structure, for setting electric energy illuminator.

As shown in Figure 29, this has the electric energy illuminator of axially and radially stomata radiator, and it has axially and radially gas Hole radiator 101 further can be made network structure with Heat Conduction Material, and the mesh for passing through network structure is radially vented with replacing Hole 107 and radial air inlet hole 108, its light projector side 103 then have block conductive structure, for setting electric energy illuminator.

This has the electric energy illuminator of axially and radially stomata radiator, is to promote the inside of axial tubular stream 102 heat to rise The fluency of air-flow, the inside that will further have the axially and radially top of stomata radiator 101, meets the axial direction to light projector side 103, It is made the structure with deflection cone 301；Or by axial restraint and conductive interface 114, for combining tool axially and radially stomata radiating The side of body 101, along meeting to the axial direction for having the axially and radially light projector side 103 of stomata radiator 101, is made with deflection cone 302 Structure, above-mentioned deflection cone 301, deflection cone 302 meet the direction to the tool axially and radially light projector side 103 of stomata radiator 101 It is in cone-shaped, to guide the inside of axial tubular flow road 102 heat to rise air flow direction rod radial air vent 107；

As shown in Figure 30, it is the inside at tool in the various embodiments of the present invention axially and radially top of stomata radiator 101, Meet and be made with the structure of deflection cone 301 to the axial direction of light projector side 103, deflection cone 301 is met to tool axially and radially stomata radiator The direction of 101 light projector side 103 is, in cone-shaped, to be radially vented with guiding the inside of axial tubular flow road 102 heat to rise air flow direction Hole 107.

As shown in Figure 31, be axial restraint and conductive interface 114 in various embodiments of the present invention, for combining tool axially and The side of radial direction stomata radiator 101, tool is made along meeting to the axial direction for having the axially and radially light projector side 103 of stomata radiator 101 There is the structure of deflection cone 302, it is in point that deflection cone 302 is met to the direction for having the axially and radially light projector side 103 of stomata radiator 101 Taper, to guide the inside of axial tubular flow road 102 heat to rise air flow direction rod radial air vent 107.

This has the electric energy illuminator of axially and radially stomata radiator, is further set inside axial tubular stream 102 The fan 400 of motor-driven is put, to assist the flowing of the inside thermal current of axial tubular flow road 102, and increases radiating effect；

Figure 32 show in the present invention embodiment schematic diagram for setting motor driven fan 400；

As shown in Figure 32, this has the electric energy illuminator of axially and radially stomata radiator, by axial tubular stream Air-flow inside 102, in addition to the effect that cold drop is risen by heat makes air current flow, can further inside axial tubular stream 102 Motor driven fan 400 is set, to assist the flowing of the inside thermal current of axial tubular flow road 102, and increases radiating effect.

The above, only presently preferred embodiments of the present invention is not intended to limit the scope of the present invention.

Claims

1. a kind of electric energy illuminator for having axially and radially stomata radiator, it is characterised in that the tool axially and radially stomata The electric energy illuminator of radiator is so that the heat energy from electric lighting device, in addition to by radiator surface externally radiating, further leads to Cross the heat for having the internal thermal current of axially and radially stomata radiator (101) and rise cold drop effect, while by the air inlet of nearly light projector side Suction airflow, and closely it is coupled the footpath of side (104) by having axially and radially stomata radiator (101) through axial tubular flow road (102) Discharged to steam vent (107) and form air flow to assist to have the internal thermal current of axially and radially stomata radiator (101) Externally radiating, it is mainly consisted of：

-- have axially and radially stomata radiator (101)：It is the integral type or combined type as made by the good material of thermal conductivity Ducted body, for constituting outer radiating surface (105), its inner radial is for constituting interior radiating surface (106), and centre has for its radial direction appearance For airflow axial tubular stream (102) constitute axial hole, and with have axially and radially stomata radiator (101) axial direction Used as light projector side (103), for setting electric energy illuminator, the axial other end is made in closing or semiclosed or Open architecture for one end To be coupled side (104), with as the external structure being coupled；

-- axially and radially stomata radiator (101) is closely coupled the side of side (104) and is provided with more than one rod radial air vent tool (107) more than one air admission hole, and in light projector side (103) is provided with, arrangement above at following three at least is included in Air inlet, this is to be provided with radial air inlet hole (108) and/or the axial end middle setting in light projector side (103) in periphery at three Central axial direction air admission hole (109) and/or the nearly surrounding ring of axial end is set in light projector side (103) air admission hole (110) is set；

By said structure, when electric energy illuminator electrified light emitting produces heat waste, by having axially and radially stomata radiator (101) internal thermal current produces heat to rise cold drop effect, by the air inlet suction airflow of nearly light projector side, and through axial tubular flow road (102) axial hole for constituting, then the rod radial air vent for being closely coupled side (104) by having axially and radially stomata radiator (101) (107) discharge and constitute air flow, by the internal heat energy discharge of axial tubular stream (102).

2. the electric energy illuminator of axially and radially stomata radiator is had as claimed in claim 1, it is characterised in that the tool axial direction And the electric energy illuminator of radial direction stomata radiator includes for electric energy illuminator being arranged at tool axially and radially stomata radiator (101) Light projector side end face mesozone, and in nearly light projector side periphery set radial air inlet hole (108), it is mainly consisted of：

-- have axially and radially stomata radiator (101)：It is the integral type or combined type as made by the good material of thermal conductivity Ducted body, for constituting outer radiating surface (105), its inner radial is for constituting interior radiating surface (106), and centre has for its radial direction appearance Axial tubular stream (102) for airflow constitutes axial hole, and has the one of axially and radially stomata radiator (101) axial direction Used as light projector side (103), for setting electric energy illuminator, the axial other end is provided as in closing or semiclosed or Open architecture at end It is coupled side (104), with as the external structure being coupled；

-- axially and radially stomata radiator (101) is closely coupled the side of side (104) and is provided with more than one rod radial air vent tool (107), rod radial air vent (107) is including in grid hole that is poroid or being made up of network structure；

-- radial air inlet hole (108)：Be for be arranged at tool axially and radially stomata radiator (101) nearly light projector side (103) outward More than one the radial air inlet hole (108) enclosed, radial air inlet hole (108) are including in grid that is poroid or being made up of network structure Hole；

By said structure when electric energy illuminator electrified light emitting produces heat waste, by having axially and radially stomata radiator (101) internal thermal current produces heat to rise cold drop effect, is inhaled by the more than one radial air inlet hole (108) of light projector side (103) Enter air-flow, and through the axial hole of axial tubular flow road (102) composition, then closely joined by having axially and radially stomata radiator (101) Tie rod radial air vent (107) discharge of side (104) and constitute air flow, by the internal heat energy of axial tubular stream (102) Discharge；

-- electric energy illuminator：The device of luminous energy is produced to be constituted by by more than one input electric energy, the device includes luminous two The module of pole pipe (111) or light emitting diode, the light projector side (103) for having axially and radially stomata radiator (101) for being arranged at Centre, and according to the external light projector of direction initialization；

-- secondary optics device (112)：Be according to need selectivity set, for by the luminous energy optically focused of light emitting diode (111), expand The function of dissipating, reflect and reflect is with external light projector；

-- printing opacity lamp housing (113)：It is as made by light transmissive material, for covering in light emitting diode (111) with to light emitting diode (111) protect, and the luminous energy of light emitting diode (111) can be supplied to penetrate externally projection；

-- axial restraint and thermal interface (114)：Its one end is to be incorporated into the connection for having axially and radially stomata radiator (101) Side (104), the other end is or the conductive interface structure being made up of conductive terminal structure in locking type lamp holder or holder structure, The link interface of electric energy illuminator and axially outer electric energy is provided as, and is connected to electric energy illuminator to transmit electricity with electric conductor Energy.

3. the electric energy illuminator of axially and radially stomata radiator is had as claimed in claim 1, it is characterised in that the tool axial direction And the electric energy illuminator of radial direction stomata radiator includes for electric energy illuminator being arranged at tool axially and radially stomata radiator (101) Light projector side end face mesozone, and air admission hole (110) is set in the light projector side setting nearly surrounding ring of axial end, it is mainly consisted of：

-- the nearly surrounding ring of axial end sets air admission hole (110)：It is the throwing for having axially and radially stomata radiator (101) for being located on More than one air inlet structure around light side (103) axial end is near, for towards axial tubular stream (102), axial end Nearly surrounding ring sets air admission hole (110) including in grid hole that is poroid or being made up of network structure；

By said structure when electric energy illuminator electrified light emitting produces heat waste, by having axially and radially stomata radiator (101) internal thermal current produces heat to rise cold drop effect, and the more than one nearly surrounding ring of axial end is set by light projector side (103) If air admission hole (110) suction airflow, and the axial hole constituted through axial tubular flow road (102), then by having axially and radially stomata Radiator (101) is closely coupled rod radial air vent (107) discharge of side (104) and constitutes air flow, by axial tubular stream (102) internal heat energy discharge；

4. the electric energy illuminator of axially and radially stomata radiator is had as claimed in claim 1, it is characterised in that the tool axial direction And the electric energy illuminator of radial direction stomata radiator includes for electric energy illuminator being arranged at tool axially and radially in downward light projector circular row Stomata radiator (101) light projector side, and central axial direction air admission hole (109) is set, it is mainly consisted of：

-- center axial direction air admission hole (109)：It is the light projector side (103) for having axially and radially stomata radiator (101) for being arranged at Axial end set in the middle of axial direction air admission hole shape structure, for towards axial tubular stream (102), center axial direction air admission hole (109) including in grid hole that is poroid or being made up of network structure；

By said structure when electric energy illuminator electrified light emitting produces heat waste, by having axially and radially stomata radiator (101) internal thermal current produces heat to rise cold drop effect, by center axial direction air admission hole (109) suction airflow of light projector side (103), And the axial hole constituted through axial tubular flow road (102), then closely it is coupled side by having axially and radially stomata radiator (101) (104) rod radial air vent (107) is discharged and constitutes air flow, by the internal heat energy discharge of axial tubular stream (102)；

-- electric energy illuminator：The device of luminous energy is produced to be constituted by by more than one input electric energy, the device includes luminous two The module of pole pipe (111) or light emitting diode, the light projector side (103) for having axially and radially stomata radiator (101) for being arranged at In enclose, and be in down-set, and according to the external light projector of direction initialization；

5. the electric energy illuminator of axially and radially stomata radiator is had as claimed in claim 1, it is characterised in that the tool axial direction And the electric energy illuminator of radial direction stomata radiator includes for electric energy illuminator being arranged at tool axle in the downward light projector circular row of multiple round To and radial direction stomata radiator (101) light projector side, and around light projector side or in the multiple round annular electric energy of downward light projector Between illuminator, the nearly surrounding ring of axial end is set and is set air admission hole (110) and center axial direction air admission hole (109) is set, its is main Constitute as follows：

-- the nearly surrounding ring of axial end sets air admission hole (110)：It is the throwing for having axially and radially stomata radiator (101) for being located on Around light side (103) axial end is near, or more than one between the annular light emitting diode of the downward light projector of multiple round (111) Air inlet structure, for towards axial tubular stream (102), the nearly surrounding ring of axial end set air admission hole (110) including in poroid or The grid hole being made up of network structure；

By said structure when electric energy illuminator electrified light emitting produces heat waste, by having axially and radially stomata radiator (101) internal thermal current produces heat to rise cold drop effect, by center axial direction air admission hole (109) of light projector side (103) and axial end The nearly surrounding ring in face sets air admission hole (110) suction airflow, and through the axial hole of axial tubular flow road (102) composition, then by tool axially And radial direction stomata radiator (101) is closely coupled rod radial air vent (107) discharge of side (104) and constitutes air flow, by axle Discharged to the internal heat energy of tubulose stream (102)；

-- electric energy illuminator：The device of luminous energy is produced to be constituted by by multiple input electric energy, the device includes light emitting diode (111) or light emitting diode module, for being arranged at the interior of the tool axially and radially light projector side (103) of stomata radiator (101) Enclose, and be in down-set multiple round, and according to the external light projector of direction initialization；

6. the electric energy illuminator of axially and radially stomata radiator is had as claimed in claim 2, it is characterised in that the tool axial direction And the electric energy illuminator of radial direction stomata radiator is further with radially fixed and thermal interface (115) substitution axial restraint and leads Electric interface (114), and add top nappe (116)；

Wherein：

-- radially fixed and thermal interface (115)：Its one end is to be incorporated into the connection for having axially and radially stomata radiator (101) Side (104), the other end is or the conductive interface structure being made up of conductive terminal structure in locking type lamp holder or holder structure, The link interface of electric energy illuminator and radially outer electric energy is provided as, and is connected to electric energy illuminator to transmit electricity with electric conductor Energy；

-- top nappe (116)：Constituted by by thermal conductivity or non heat conductivity material, for being incorporated into tool axially and radially stomata The connection side (104) of radiator (101), to the air-flow for having axially and radially stomata radiator (101) top interior space, to carry For guiding shape of the air-flow to radial diffusion, or the optically focused or the function of diffusion for making optical reflection or refraction are provided, in using non- When Heat Conduction Material is constituted, for isolating or reducing the heat for having axially and radially stomata radiator (101) top interior space and outside Can transmission, when being constituted using Heat Conduction Material, and further have assist tool axially and radially stomata radiator (101) it is internal compared with High temperature gas flow externally makees the function of radiating.

7. the electric energy illuminator of axially and radially stomata radiator is had as claimed in claim 3, it is characterised in that the tool axial direction And the electric energy illuminator of radial direction stomata radiator is further with radially fixed and thermal interface (115) substitution axial restraint and leads Electric interface (114), and add top nappe (116)；

Wherein：

8. the electric energy illuminator of axially and radially stomata radiator is had as claimed in claim 4, it is characterised in that the tool axial direction And the electric energy illuminator of radial direction stomata radiator is further with radially fixed and thermal interface (115) substitution axial restraint and leads Electric interface (114), and add top nappe (116)；

Wherein：

9. the electric energy illuminator of axially and radially stomata radiator is had as claimed in claim 5, it is characterised in that the tool axle To and radial direction stomata radiator electric energy illuminator be further with radially fixed and thermal interface (115) replace axial restraint and Thermal interface (114), and add top nappe (116)；

Wherein：

10. the electric energy illuminator of axially and radially stomata radiator is had as described in any one of claim 2 to 9, it is characterised in that The locking type lamp holder or holder structure include screw-in lamp holder or holder structure, plug-in type lamp holder or holder structure.

The 11. electric energy illuminators for having axially and radially stomata radiator as claimed in claim 1, it is characterised in that the tool axle To and radial direction stomata radiator electric energy illuminator further when applying, in many places, air inlet is set, wherein：

-- axially and radially stomata radiator (101) is closely coupled the side of side (104) and is provided with more than one rod radial air vent tool (107) air admission hole, and in light projector side (103) is provided with, arrangement above air inlet at least at following three is included in, is included in outer Enclose and be provided with radial air inlet hole (108) and/or axial end middle setting center axial direction air admission hole (109) in light projector side (103) And/or set air admission hole (110) in light projector side (103) setting nearly surrounding ring of axial end.

The 12. electric energy illuminators for having axially and radially stomata radiator as claimed in claim 1, it is characterised in that the tool axle To and radial direction stomata radiator electric energy illuminator further by the internal or external of the axial section of axial tubular stream (102) Both or at least within one be made tool heat-dissipating fin structure (200), to increase its radiating effect；Its main composition is by heat conduction The tool that the good material of property is constituted axially and radially stomata radiator (101), its row for being closely coupled radial direction set by side (104) Between stomata and the air admission hole of nearly light projector side (103), the tubulose road mutually flowed, its tubulose are constituted by axial tubular stream (102) The structure section B-B of stream is in tool heat-dissipating fin structure (200).

The 13. electric energy illuminators for having axially and radially stomata radiator as claimed in claim 1, it is characterised in that the tool axle To and radial direction stomata radiator (101) network structure is further made with Heat Conduction Material, and pass through the mesh of network structure to take For rod radial air vent (107) and radial air inlet hole (108), its light projector side (103) then has block conductive structure, for setting electricity Can illuminator.

The 14. electric energy illuminators for having axially and radially stomata radiator as claimed in claim 1, it is characterised in that the tool axle To and the electric energy illuminator of radial direction stomata radiator will further have inside axially and radially at the top of stomata radiator (101), The axial direction to light projector side (103) is met, the structure with deflection cone (301) is made；Or by axial restraint and conductive interface (114), Side for combining tool axially and radially stomata radiator (101), along meeting to tool axially and radially stomata radiator (101) light projector The axial direction of side (103), is made the structure with deflection cone (302), and above-mentioned deflection cone (301), deflection cone (302) are met to tool axially And the direction of the light projector side (103) of radial direction stomata radiator (101) is in cone-shaped, to guide in axial tubular flow road (102) Portion's heat rises air flow direction rod radial air vent (107).

The 15. electric energy illuminators for having axially and radially stomata radiator as claimed in claim 1, it is characterised in that the tool axle To and the electric energy illuminator of radial direction stomata radiator the wind of motor-driven is further set inside the axial tubular stream (102) Fan (400), to assist the flowing of the internal thermal current of axial tubular flow road (102), and increases radiating effect.

The 16. electric energy illuminators for having axially and radially stomata radiator as described in any one in claim 1-5, its feature exists In, wherein have axially and radially stomata radiator (101), its radial direction appearance and radial direction Inner portions be in even surface or cellular or Radiator structure netted or in wing convex-concave surface.